Display apparatus

ABSTRACT

The present disclosure relates to a display apparatus, and more particularly, to a display apparatus having a display panel capable of generating sound. A display apparatus according to the present disclosure includes: a display module; a guide panel disposed at circumferences of a rear surface of the display module; a back cover attached to the guide panel; a sound generating unit disposed between the display module and the back cover; and an adhesive fixing element and a vibration absorber disposed between the guide panel and the rear surface of the display module, wherein the adhesive fixing element fasten the guide panel to the rear surface of the display module, and wherein the vibration absorber is disposed at the guide panel as facing to inner portions of the display module.

CROSS-REFERENCE TO RELATED APPLICATIONS

This is a continuation of U.S. patent application Ser. No. 16/919,805,filed on Jul. 2, 2020, which claims the benefit of Korean PatentApplication No. 10-2019-0080583 filed on Jul. 4, 2019, the entirety ofeach of which is incorporated herein by reference as if fully set forthherein.

BACKGROUND Technical Field

The present disclosure relates to a display apparatus, and moreparticularly, to a display apparatus having a display panel capable ofgenerating sound.

Discussion of the Related Art

Generally, display apparatus, such as a television, a monitor, anotebook computer, a smartphone, a tablet computer, an electronic pad, awearable device, a watch phone, a portable information device, anavigation device, or a vehicle control display include a display panelto display an image.

The general display apparatus may include a display panel forrepresenting various video images, and a sound apparatus to output soundrelated to the image.

However, in the display apparatus of the related art, because soundgenerated by the sound apparatus is output in a direction toward a rearsurface or a side surface of a main body (or housing), rather than to afront surface of a display panel, sound may not travel toward a viewer(or a user) who watches an image in front of the display panel. Thus,immersion of the viewer who watches the image may be disturbed.

SUMMARY

The inventors of the present application recognize the problems with ageneral display apparatus, and have made various experiments forimproving the sound quality and for aiming the direction of the sound tothe front of the display panel when viewing an image from the front ofthe display panel. After various experiments, a display apparatus havinga new structure capable of generating sound that can proceed in front ofthe display panel and improving the sound quality is proposed.

Accordingly, embodiments of the present disclosure are directed to adisplay apparatus that substantially obviates one or more of theproblems due to limitations and disadvantages of the related art.

An aspect of the present disclosure according to one example is toprovide a display apparatus capable of accurate sound transmission. Anaspect according to an example of the present disclosure is to provide adisplay apparatus capable of generating sound that can be propagated infront of the display panel.

Another aspect of the present disclosure according one example is toprovide a display apparatus capable of improving the sound quality andincreasing the immersion of the viewer. Still another aspect of thepresent disclosure according to one example is to provide a displayapparatus that suppresses the vibration reflected from the edge of thedisplay panel, as vibrating the display panel directly, for generatinghigh-quality sound.

Additional features and aspects will be set forth in the descriptionthat follows, and in part will be apparent from the description, or maybe learned by practice of the inventive concepts provided herein. Otherfeatures and aspects of the inventive concepts may be realized andattained by the structure particularly pointed out in the writtendescription, or derivable therefrom, and the claims hereof as well asthe appended drawings.

To achieve these and other aspects of the inventive concepts, asembodied and broadly described, a display apparatus comprises: a displaymodule; a guide panel disposed at circumferences of a rear surface ofthe display module; a back cover attached to the guide panel; a soundgenerating unit disposed between the display module and the back cover;and an adhesive fixing element and a vibration absorber disposed betweenthe guide panel and the rear surface of the display module, wherein theadhesive fixing element fasten the guide panel to the rear surface ofthe display module, and wherein the vibration absorber is disposed atthe guide panel as facing to inner portions of the display module.

In one example, the display module includes: a cover glass having adisplay area and a non-display area surrounding the display area; and adisplay panel attached to a rear surface of the cover glass as beingcorresponding to the display area.

In one example, the guide panel include: a fixing area corresponding toan outer area; and a vibration absorbing area disposed to the innerportion of the display panel from the fixing area, wherein the adhesivefixing element is disposed at the fixing area, and wherein the vibrationabsorber is disposed at the vibration absorbing area.

In one example, the fixing area of the guide panel is thicker than thevibration absorbing area of the guide panel.

In one example, the guide panel includes a rigid area and an elasticarea, the vibration absorber is corresponding to the elastic area asbeing one body with the guide panel, the guide panel is fastened to thedisplay module by the adhesive fixing element, and the rigid area of theguide panel is attached to the back cover.

In one example, the vibration absorber includes at least one of: aplurality of extended protrusions extended to the inner portions of thedisplay module; and a plurality of recessed protrusions recessed toouter portions of the display module.

In one example, at least one of the extended protrusions and therecessed protrusions is disposed at least one of four corners of thedisplay module.

In one example, at least one of the extended protrusions and therecessed protrusions is disposed at two sides of the display moduleparallel each other.

In another aspect, a display apparatus comprises: a display moduleincluding a display area and a non-display area surrounding the displayarea; an adhesive fixing element disposed at circumference area on arear surface of the non-display area; a guide panel attached to theadhesive fixing element; a vibration absorber disposed at an inner areafrom the circumference area, on the rear surface of the non-displayarea; a back cover attached to a rear surface of the guide panel; and asound generating unit disposed at the back cover.

In one example, the display module includes: a cover glass having thedisplay area and the non-display area; and a display panel disposed on arear surface of the cover glass as corresponding to the display area,wherein the sound generating unit is attached at a rear surface of thedisplay panel.

In one example, the guide panel includes: a fixing area corresponding tothe circumference area; and a vibration absorbing area corresponding tothe inner area, wherein the adhesive fixing element is disposed at thefixing area, and wherein the vibration absorber is disposed at thevibration absorbing area.

In one example, the fixing area of the guide panel has thicker thicknessthan the vibration absorbing area, and the vibration absorber is incontact with the rear surface of the display module in the vibrationabsorbing area, and is attached to the guide panel.

In one example, the guide panel is disposed at the inner area of thenon-display area, the vibration absorber is attached at an upper surfaceof the guide panel, and is in contact with the rear surface of thenon-display area, and the adhesive fixing element is attached to thevibration absorber and the guide panel.

In one example, the guide panel includes: a rigid area disposed at thecircumference area; and an elastic area disposed at the inner area,wherein an upper surface of the guide panel is attached to the rearsurface of the non-display area of the display module by the adhesivefixing element, and wherein an lower surface of the guide panel isattached to the back cover.

In one example, the vibration absorber includes at least one of: aplurality of extended protrusions extending to inner portions of thedisplay module, and a plurality of recessed protrusions recessed toouter portions of the display module.

The display apparatus according to the present disclosure can accuratelytransmit sound, and capable of improving sound quality and increasingviewer immersion.

It is to be understood that both the foregoing general description andthe following detailed description are exemplary and explanatory and areintended to provide further explanation of the inventive concepts asclaimed.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings, which are included to provide a furtherunderstanding of the disclosure and are incorporated in and constitute apart of this application, illustrate embodiments of the disclosure andtogether with the description serve to explain various principles of thedisclosure. In the drawings:

FIG. 1 is a diagram illustrating a display apparatus having a soundgenerating unit at the rear surface of the display panel according tothe present disclosure.

FIG. 2 is a cross-sectional view along cutting line I-I′ in FIG. 1 , forillustrating a structure of a display apparatus according to the firstembodiment of the present disclosure.

FIG. 3 is an enlarged cross-sectional view along cutting line I-I′ inFIG. 1 , for illustrating a structure of a display apparatus accordingto the second embodiment of the present disclosure.

FIG. 4 is an enlarged cross-sectional view along cutting line I-I′ inFIG. 1 , for illustrating a structure of a display apparatus accordingto the third embodiment of the present disclosure.

FIG. 5 is an enlarged cross-sectional view along cutting line I-I′ inFIG. 1 , for illustrating a structure of a display apparatus accordingto the fourth embodiment of the present disclosure.

FIG. 6 is a rear side plan view illustrating a structure of a displayapparatus according to the fifth embodiment of the present disclosure.

FIG. 7 is a rear side plan view illustrating a structure of a displayapparatus according to the seventh embodiment of the present disclosure.

FIG. 8 is a graph showing the sound pressure level compared to thefrequency measured at the display apparatus according to the variousembodiments of the present disclosure.

DETAILED DESCRIPTION

Reference will now be made in detail to the exemplary embodiments of thepresent disclosure, examples of which are illustrated in theaccompanying drawings. Wherever possible, the same reference numberswill be used throughout the drawings to refer to the same or like parts.In the specification, it should be noted that like reference numeralsalready used to denote like elements in other drawings are used forelements wherever possible. In the following description, when afunction and a configuration known to those skilled in the art areirrelevant to the essential configuration of the present disclosure,their detailed descriptions will be omitted. The terms described in thespecification should be understood as follows. Advantages and featuresof the present disclosure, and implementation methods thereof will beclarified through following embodiments described with reference to theaccompanying drawings. The present disclosure may, however, be embodiedin different forms and should not be construed as limited to theembodiments set forth herein. Rather, these embodiments are provided sothat this disclosure will be thorough and complete, and will fullyconvey the scope of the present disclosure to those skilled in the art.Further, the present disclosure is only defined by scopes of claims.

A shape, a size, a ratio, an angle, and a number disclosed in thedrawings for describing embodiments of the present disclosure are merelyan example, and thus, the present disclosure is not limited to theillustrated details. Like reference numerals refer to like elementsthroughout. In the following description, when the detailed descriptionof the relevant known function or configuration is determined tounnecessarily obscure the important point of the present disclosure, thedetailed description will be omitted.

In the case that “comprise,” “have,” and “include” described in thepresent specification are used, another part may also be present unless“only” is used. The terms in a singular form may include plural formsunless noted to the contrary.

In construing an element, the element is construed as including an errorrange although there is no explicit description.

In describing a positional relationship, for example, when thepositional order is described as “on,” “above,” “below,” and “next,” thecase of no contact there-between may be included, unless “just” or“direct” is used. If it is mentioned that a first element is positioned“on” a second element, it does not mean that the first element isessentially positioned above the second element in the figure. The upperpart and the lower part of an object concerned may be changed dependingon the orientation of the object. Consequently, the case in which afirst element is positioned “on” a second element includes the case inwhich the first element is positioned “below” the second element as wellas the case in which the first element is positioned “above” the secondelement in the figure or in an actual configuration.

In describing a temporal relationship, for example, when the temporalorder is described as “after,” “subsequent,” “next,” and “before,” acase which is not continuous may be included, unless “just” or “direct”is used.

It will be understood that, although the terms “first,” “second,” etc.may be used herein to describe various elements, these elements shouldnot be limited by these terms. These terms are only used to distinguishone element from another. For example, a first element could be termed asecond element, and, similarly, a second element could be termed a firstelement, without departing from the scope of the present disclosure.

In describing the elements of the present disclosure, terms such as thefirst, the second, A, B, (a) and (b) may be used. These terms are onlyto distinguish the elements from other elements, and the terms are notlimited in nature, order, sequence or number of the elements. When anelement is described as being “linked”, “coupled” or “connected” toanother element that element may be directly connected to or connectedto that other element, but indirectly unless otherwise specified. It isto be understood that other elements may be “interposed” between eachelement that may be connected to or coupled to.

It should be understood that the term “at least one” includes allcombinations related with any one item. For example, “at least one amonga first element, a second element and a third element” may include allcombinations of two or more elements selected from the first, second andthird elements as well as each element of the first, second and thirdelements.

Features of various embodiments of the present disclosure may bepartially or overall coupled to or combined with each other, and may bevariously inter-operated with each other and driven technically as thoseskilled in the art can sufficiently understand. The embodiments of thepresent disclosure may be carried out independently from each other, ormay be carried out together in a co-dependent relationship.

The ‘display apparatus’ in this application may comprise a liquidcrystal module (LCM), an organic light emitting display module (OLEDModule), or a quantum dot module (QD Module) which are have a displaypanel and a driver for driving the display panel. The ‘displayapparatus’ may further comprise a complete product or final productincluding LCM, OLED Module or QD Module such as a note-book computer, atelevision set, a computer monitor, an equipment apparatus having anautomotive apparatus or other modules for vehicle, a set electronicapparatus or a set device (or set apparatus) such as a smart phone or amobile electronic apparatus.

Therefore, the ‘display apparatus’ may be any one of a display devicesuch as LCM, OLED Module and QD Module, an application device includingLCM, OLED Module or QD Module, or a set apparatus for end user's finaldevices.

In another example, the LCM, OLED Module or QD Module may be referred tothe ‘display apparatus’, and the final electronic devices including LCM,OLED Module or QD Module may be referred to the ‘set apparatus’. Forexample, the display apparatus may include a display panel of liquidcrystal display or organic electroluminescence display, and a sourceprinted circuit board (PCB) for driving the display panel. The setapparatus may include the display apparatus and a set PCB or control PCBfor driving the set apparatus itself by connecting to the displayapparatus and the source PCB.

The display panel according to the embodiments of the present disclosuremay include a liquid crystal display panel, an organic light emittingdiode display panel, and an electroluminescent display panel, but it isnot limited thereto. For example, display panel may have any structurein which the display panel may be vibrated to generate sound. Inaddition, the display panel applied to the display apparatus accordingto the embodiment of the present disclosure is not limited to the shapeor size of the display panel.

In the case that the display panel is the liquid crystal display panel,the display panel may include a plurality of gate lines, a plurality ofdata lines, and a plurality of pixels (or sub pixels) defined by thegate lines and the data lines. The display panel may include an arraysubstrate including thin film transistor as a switching element forcontrolling the light transmittance of each pixel, an upper substrateincluding a color filter and/or a black matrix, and a liquid crystallayer disposed between the array substrate and the upper substrate.

In the case that the display panel is an organic light emitting diodedisplay panel, the display panel may include a plurality of gate lines,a plurality of data lines, and a plurality of pixels (or sub pixels)defined by the gate lines and the data lines. The display panel mayinclude an array substrate including thin film transistor for applyingthe electric voltage to each pixel selectively, an organic lightemitting layer on the array substrate, and an encapsulation substratedisposed on the array substrate for covering the organic light emittinglayer. The encapsulation substrate may protect the thin film transistorand the organic light emitting layer from any external shocks, andprevent moisture and oxygen from penetrating into the organic lightemitting layer. In addition, the organic light emitting layer formed onthe array substrate may be replaced by the inorganic light emittinglayer, the quantum dot light emitting layer, or the micro light emittingdiode element.

The display apparatus including the sound generating module according tothe present disclosure may be applied to the vehicle as the userinterface module such as the central control panel in the automobile.For example, the display panel may be installed at the center fasciabetween the driver seat and the assistant seat so that the vibration ofthe display panel propagates toward the interior space of the vehicle.Therefore, the in-car audio can be improved compared to havingconventional speakers only at inside sides of the car.

Hereinafter, an example of a display apparatus according to the presentdisclosure will be described in detail with reference to theaccompanying drawings. In designating reference numerals to elements ofeach drawing, the same components may have the same reference numeralsas much as possible even though they are shown in different drawings.Scale of the elements shown in the accompanying drawings have adifferent scale from the actual for convenience of description, it isnot limited to the scale shown in the drawings.

FIG. 1 is a diagram illustrating a display apparatus having a soundgenerating unit at the rear surface of the display panel according tothe present disclosure. Referring to FIG. 1 , the display apparatusaccording to the present disclosure may generate the sounds S1 and S2 inaccordance to the vibration of the display module DIS. For example, inthe display apparatus, the display module DIS may be vibrated by thevibration generating device (or sound generating device) EX so as tomake the sound S1 and S2. Most of sounds S1 and S2 generated by thevibration of the display module DIS may directly propagate to the frontdirection FD of the display apparatus. Therefore, by using the displaymodule DIS as the vibrating plate (or tympanum) for generating thesounds, the display apparatus according to the presented disclosure mayexactly provide the sound, improve the sound quality and enhance theimmersion of the viewer.

In the display apparatus according to the present disclosure, the soundgenerating unit may provide the force of vibration to the display moduleDIS so that the display module DIS makes the sound. Since the displaymodule DIS may use a vibrating substrate, such as a cover glass CG,acoustic vibration may be canceled or disturbed due to the vibrationreflection from the edge portion of the cover glass CG, therebydegrading the sound quality. In order to solve this problem, the presentdisclosure provides a structure for suppressing the reflected vibration.Hereinafter, various embodiments of the present disclosure will bedescribed in detail with drawings.

First Embodiment

FIG. 2 is a cross-sectional view along cutting line I-I′ in FIG. 1 , forillustrating a structure of a display apparatus according to the firstembodiment of the present disclosure.

Referring to FIG. 2 , the display apparatus according to the firstembodiment of the present disclosure may comprise a display module DIS,a guide panel GP, a back cover BC, an adhesive fixing element AD, avibration absorber DM and a sound generating unit EX. The display moduleDIS may include a liquid crystal display module, but it is not limitedthereto. For example, the display module DIS may include any one of anelectroluminescent display module, an electrophoresis display module, amicro LED display module, an electronic wetting display module, and aquantum dot light emitting display module.

The display module DIS may include a display panel DP and a cover glassCG. The cover glass CG may include a display area AA and a non-displayarea IA. The display area AA is the portions for representing the videoimages, and the non-display area IA is the portions surrounding thedisplay area AA which may not provide any video images. However, in somecases, the non-display area IA may provide additional video images orpicture images. The display panel DP may be attached at inner surface ofthe display area AA of the cover glass CG.

The display panel DP is the element for displaying the video images andmay be represented as the electroluminescent display panel. Even thoughnot shown in figures, an external circuit part may be disposed at thenon-display area IA of the cover glass CG for driving the displayelement.

The back cover BC may be attached at the rear surface of the displaymodule DIS. In detail, the guide panel GP may be attached at non displayarea IA of the display module DIS. In addition, the back cover BC may beattached at the rear surface of the guide panel GP. Even though notshown in figures, the guide panel GP and the back cover BC may be joinedeach other by a joining element such as the adhesive or the fasteningscrews.

The back cover BC may have a plurality of bend shapes for reinforcingthe strength so that it may not have the flat surface. The back cover BCmay include a coupling portion 710 for joining with the guide panel GPand a body portion 730 curved and extended from the coupling portion710. The coupling portion 710 may include a coupling face 711 that issurface-jointed to the guide panel GP. Although not shown in figures, anadhesive may be interposed between the coupling surface 711 and theguide panel GP, and may include a fixing member such as a screw thatpenetrates the coupling portion 710 to fasten the guide panel GP.

The sound generating unit EX may be disposed at a portion of the displayarea AA in the back cover BC. In figures, the sound generating unit EXis installed at the through hole penetrating a portion of the back coverBC. However, it is not limited thereto, the sound generating unit EX maybe attached at the inner surface of the back cover BC. That is, thesound generating unit EX may be disposed within the space between thedisplay module DIS and the back cover BC.

In addition, in figures, the sound generating unit EX is directlyattached at the rear surface of the display module DIS. This is just oneexample of preferable structures of the present disclosure, so it is notlimited thereto. For another example, the sound generating unit EX isinstalled at the rear side of the display module DIS with apredetermined gap so that the vibration may not directly provide to thedisplay module DIS but provide the sound pressure through the airthere-between.

The guide panel GP may be attached as corresponding to the non-displayarea IA of the display module DIS. For example, the rear surface of theguide panel GP may be attached to the back cover BC, and the frontsurface of the guide panel GP may be attached at the rear surface of thedisplay module DIS using an adhesive fixing element AD. In addition, thevibration absorber DM is disposed between the guide panel GP and therear surface of the display panel DIS. The vibration absorber DM may bemade of a material having very high elasticity. The vibration absorberDM may be in close contact with the upper (or front) surface of theguide panel DP and the rear surface of the display module DIS.

The guide panel GP may include an adhesive fixing area ADA and avibration absorption (or damping) area DMA. The adhesive fixing area ADArefers to an area where the guide panel GP is adhesively fixed to thedisplay module DIS. The vibration absorption area DMA is an areaadjacent to the adhesive fixing area ADA at the inner side in the guidepanel GP, and refers to an area absorbing the vibration generated fromthe sound generating unit EX without reflecting the vibration.

The adhesive fixing element AD is a medium for adhesively joining theguide panel GP to the display module DIS, and may be formed of anorganic adhesive material, a photo-curable adhesive material, or aheat-curable adhesive material. However, it is not limited thereto, theadhesive fixing element AD may include any adhesive medium capable ofcombining the guide panel GP and the display module DIS.

When vibration occurs from the sound generating unit EX, the vibrationis propagated to the display module DIS and sound is generated inaccordance with the force or energy of the vibration. Since the guidepanel GP is firmly adhered to the edge of the display module DIS by theadhesive fixing member AD, the acoustic vibrations are reflected fromthe adhesive fixing member AD to the center of the display module DIS.The echo vibration may cancel or interfere with the acoustic vibrationcontinuously occurring from the sound generating unit EX or adverselyaffect the acoustic vibration, so that the sound quality may bedeteriorated.

However, the display apparatus according to the first embodiment of thepresent disclosure may further include the vibration absorber DMadjacent to the adhesive fixing element AD between the adhesive fixingelement AD and the sound generating unit EX. The vibration absorber DMmay absorb and remove the echo vibration, thereby maintaining theacoustic vibration generated in the sound generating unit EX in theun-distorted state.

In the figures, the shape of the vibration absorber DM is shown as arectangular shape. However, in other cases, a round chamfer shape may beprovided at the edge portions of the display module DIS, or a diagonalchamfer shape may be provided. Such a chamfered shape may prevent thevibration transmitted from the display module DIS from generating noisedue to collision or friction with the end of the vibration absorber DM.

In the first embodiment, the adhesive fixing area ADA and the vibrationabsorbing area DMA are disposed together in the guide panel GP.Accordingly, the adhesive fixing element AD and the vibration absorberDM are disposed in the non-display area IA occupied by the guide panelGP, thereby an effect of efficiently absorbing the vibration transmittedfrom the display module DIS, while having a narrow bezel structure, canbe expected.

Second Embodiment

FIG. 3 is an enlarged cross-sectional view along cutting line I-I′ inFIG. 1 , for illustrating a structure of a display apparatus accordingto the second embodiment of the present disclosure. The secondembodiment of the present disclosure according to FIG. 3 has a structurebasically similar to the display apparatus according to the firstembodiment. As for the difference, it is in the arrangement structure ofthe vibration absorber DM and the adhesive fixing element AD disposedbetween the guide panel GP and the display module DIS. FIG. 3 is anenlarged view of a portion of the vibration absorber DM, and showsenlarged features of the second embodiment. For components not shown inFIG. 3 , the description in the first embodiment is referred to.

Referring to FIG. 3 , the display apparatus according to the secondembodiment of the present disclosure may comprise a display module DIS,a guide panel GP, a back cover BC, an adhesive fixing element AD, avibration absorber DM and a sound generating unit EX.

The display module DIS may include a display panel DP and a cover glassCG. The cover glass CG may include a display area AA and a non-displayarea IA. The display panel DP may be attached at inner surface of thedisplay area AA of the cover glass CG.

The back cover BC may be attached at the rear surface of the displaymodule DIS. In detail, the guide panel GP may be attached at non displayarea IA of the display module DIS. In addition, the back cover BC may beattached at the rear surface of the guide panel GP.

The back cover BC may include a coupling portion 710 for joining withthe guide panel GP and a body portion 730 curved and extended from thecoupling portion 710. The coupling portion 710 may include a couplingface 711 that is surface-jointed to the guide panel GP.

The sound generating unit EX may be disposed at a portion of the displayarea AA in the back cover BC. Here, the sound generating unit EX is notillustrated, but may be arranged as the same structure of the firstembodiment.

The guide panel GP may be disposed as corresponding to the non-displayarea IA of the display module DIS. For example, the rear (or bottom)surface of the guide panel GP may be attached to the back cover BC andthe vibration absorber DM may be disposed at the front surface of theguide panel GP. Here, the vibration absorber DM may be attached to theguide panel GP or may be combined or joined in a close contact.

In the second embodiment, the adhesive fixing member AD may have astructure in which it covers the rear surface of the display module DIS,the outer side of the vibration absorber DM and the outer side of theguide panel GP, and connects these surfaces.

In the second embodiment, the vibration absorber DM may have a structurein close contact with the entire guide panel DP and the rear surface ofthe display module DIS. The vibration absorber DM may be adhered to theguide panel DP, or may simply maintain a close contact state with theguide panel DP. In addition, the vibration absorber DM may be adhered tothe rear surface of the display module DIS, or may simply maintain aclose contact state with the display module DIS.

The guide panel GP may include an adhesive fixing area ADA and avibration absorption (or damping) area DMA. The adhesive fixing area ADArefers to an area where the guide panel GP is adhesively fixed to thedisplay module DIS. The vibration absorption area DMA is an areaadjacent to the adhesive fixing area ADA and corresponding to the guidepanel GP, and refers to an area absorbing the vibration generated fromthe sound generating unit EX without reflecting the vibration.

In the first embodiment, the adhesive fixing area ADA is defined as aportion of the guide panel GP at an outer portion of the display moduleDIS, but in the second embodiment, the adhesive fixing area ADA isdefined at an outside of the guide panel GP. In addition, in the firstembodiment, the vibration absorbing area DMA is defined as an innerportion of the guide panel GP, but in the second embodiment, the guidepanel GP itself is defined as the vibration absorbing area DMA.

Therefore, in the second embodiment, it is possible to ensure the spaceof the vibration absorber DM as wide as possible. As a result, variousmorphological changes may be added to the vibration absorber DM. Forexample, the sides of the vibration absorber DM may have a wave shape ora saw-tooth shape in addition to having a straight shape. In this case,the vibrations of various frequency bands transmitted from the displaymodule DIS may be absorbed more efficiently.

The adhesive fixing element AD is a medium for adhesively joining theguide panel GP to the display module DIS, and may be formed of anorganic adhesive material, a photo-curable adhesive material, or aheat-curable adhesive material.

When vibration occurs from the sound generating unit EX, the vibrationis propagated to the display module DIS and sound is generated inaccordance with the force or energy of the vibration. The displayapparatus according to the second exemplary embodiment of the presentdisclosure may further include a vibration absorber DM disposed adjacentto the adhesive fixing element AD between the adhesive fixing element ADand the sound generating unit EX. The vibration absorber DM may absorband remove the echo vibration, thereby maintaining the acousticvibration generated in the sound generating unit EX in the un-distorted(or normal) state.

In the figures, the shape of the vibration absorber DM is shown as arectangular shape. However, in other cases, a round chamfer shape may beprovided at the edge portions of the display module DIS, or a diagonalchamfer shape may be provided. Such a chamfered shape may prevent thevibration transmitted from the display module DIS from generating noisedue to collision or friction with the end of the vibration absorber DM.

Third Embodiment

FIG. 4 is an enlarged cross-sectional view along cutting line I-I′ inFIG. 1 , for illustrating a structure of a display apparatus accordingto the third embodiment of the present disclosure. The third embodimentof the present disclosure according to FIG. 3 has a structure basicallysimilar to the display apparatus according to the first embodiment. Thedifference is on the cross sectional structure of the guide panel GP.

Referring to FIG. 4 , the display apparatus according to the thirdembodiment of the present disclosure may comprise a display module DIS,a guide panel GP, a back cover BC, an adhesive fixing element AD, avibration absorber DM and a sound generating unit EX.

The display module DIS may include a display panel DP and a cover glassCG. The cover glass CG may include a display area AA and a non-displayarea IA. The display panel DP may be attached at inner surface of thedisplay area AA of the cover glass CG.

The back cover BC may be attached at the rear surface of the displaymodule DIS. In detail, the guide panel GP may be attached at non displayarea IA of the display module DIS. In addition, the back cover BC may beattached at the rear surface of the guide panel GP.

The back cover BC may include a coupling portion 710 for joining withthe guide panel GP and a body portion 730 curved and extended from thecoupling portion 710. The coupling portion 710 may include a couplingface 711 that is surface-jointed to the guide panel GP.

The sound generating unit EX may be disposed at a portion of the displayarea AA in the back cover BC. The sound generating unit EX may bedisposed at the space formed between the display module DIS and the backcover BC.

The guide panel GP may be attached as corresponding to the non-displayarea IA of the display module DIS. Between the guide panel GP and therear surface of the display panel DIS, the vibration absorber DM isdisposed. The vibration absorber DM may be in close contact with theupper surface of the guide panel GP and the rear surface of the displaymodule DIS. In some cases, the vibration absorber DM is attached to theguide panel GP through an adhesive, and may simply maintain a closecontact with the rear surface of the display module DIS.

The guide panel GP may include an adhesive fixing area ADA and avibration absorption (or damping) area DMA. The adhesive fixing area ADArefers to an area where the guide panel GP is adhesively fixed to thedisplay module DIS. The vibration absorption area DMA is an areaadjacent to the adhesive fixing area ADA to the inner side in the guidepanel GP, and refers to an area absorbing the vibration generated fromthe sound generating unit EX without reflecting the vibration.

In the third embodiment, the adhesive fixing area ADA of the guide panelGP may have a step pattern in which the thickness of the adhesive fixingarea ADA of the guide panel GP is thicker than the thickness of thevibration absorbing area DMA of the guide panel GP. For example, whenthe adhesive fixing element AD uses a very thin double-side tape or athinly applied adhesive material, it may be difficult for the vibrationabsorber DM to ensure a thickness suitable for absorbing vibration. Inthis case, referring to the thickness of the guide panel GP, someportions of the guide panel DP corresponding to the vibration absorbingarea DMA may be removed to form a thinner thickness than the adhesivefixing area ADA.

In this case, the vibration absorber DM disposed in the vibrationabsorbing area DMA has a remarkably thick thickness. Therefore, thesound vibration generated by the sound generating unit EX and propagatedthrough the display module DIS can be effectively absorbed, and the echo(or reflected) vibration can be completely blocked.

The structure of the display apparatus according to the third embodimentis suitable for ensuring a sufficient thickness of the vibrationabsorber DM when a very thin adhesive is used as the adhesive fixingelement AD. For example, when the adhesive fixing element AD is anadhesive material having a thickness of several in order to prepare thevibration absorber DM having a thickness of several mm, the guide panelGP may be preferably formed to have a thickness suitable for mountingthe vibration absorber DM in the vibration absorbing area DMA.

The display apparatus according to the third embodiment of the presentdisclosure may further comprise the vibration absorber DM disposed as inclose to the adhesive fixing element AD between the adhesive fixingelement AD and the sound generating unit EX. The vibration absorber DMmay absorb and remove the echo vibration, thereby maintaining theacoustic vibration generated in the sound generating unit EX in theun-distorted state.

Fourth Embodiment

FIG. 5 is an enlarged cross-sectional view along cutting line I-I′ inFIG. 1 , for illustrating a structure of a display apparatus accordingto the fourth embodiment of the present disclosure. In the fourthembodiment, the case in which the vibration absorber is not preparedseparately, but some portion of the guide panel GP is used as thevibration absorber is illustrated.

Referring to FIG. 5 , the display apparatus according to the fourthembodiment of the present disclosure may comprise a display module DIS,a guide panel GP, a back cover BC, an adhesive fixing element AD, avibration absorber DM and a sound generating unit EX. The display moduleDIS may include a display panel DP and a cover glass CG. The cover glassCG may include a display area AA and a non-display area IA. The displaypanel DP may be attached at inner surface of the display area AA of thecover glass CG.

The back cover BC may be attached at the rear surface of the displaymodule DIS. In detail, the guide panel GP may be attached at non displayarea IA of the display module DIS. In addition, the back cover BC may beattached at the rear surface of the guide panel GP.

The back cover BC may include a coupling portion 710 for joining withthe guide panel GP and a body portion 730 curved and extended from thecoupling portion 710. The coupling portion 710 may include a couplingface 711 that is surface-jointed to the guide panel GP.

The guide panel GP may be attached as corresponding to the non-displayarea IA of the display module DIS. For example, the lower surface of theguide panel GP may be attached to the back cover BC, and the uppersurface of the guide panel GP may be attached to the rear surface of thedisplay module DIS by the adhesive fixing element AD.

The guide panel GP may include an adhesive fixing area ADA and avibration absorption (or damping) area DMA. The adhesive fixing area ADArefers to an area where the guide panel GP is adhesively fixed to thedisplay module DIS. The vibration absorption area DMA is an areaadjacent to the adhesive fixing area ADA to the inner side in the guidepanel GP, and refers to an area absorbing the vibration generated fromthe sound generating unit EX without reflecting the vibration.

In the fourth embodiment, the guide panel GP may include a rigid area RAand an elastic area EA. The rigid area RA may be defined as the portioncorresponding to the adhesive fixing area ADA. The elastic area EA maybe defined as the portion corresponding to the vibration absorbing areaDMA. Accordingly, in the fourth embodiment, the vibration absorber isnot provided as a separated or additional element, but is replaced withan elastic part of the guide panel GP in the elastic area EA which ismade by remodeling/reforming the properties and/or shape of part of theguide panel GP.

As the result, the area occupied by the guide panel GP can be freelydesigned, and then the guide panel GP according to the fourth embodimentcan be applied to structures having various shapes.

In the fourth embodiment in which the vibration absorber DM isintegrally formed in the guide panel GP itself, an advantage can beexpected for minimizing the area of the non-display area IA in which theguide panel GP is disposed.

The rigid area RA may be a portion that is fixedly joining between therear surface of the display module DIS and the back cover BC withoutelasticity. The elastic area EA is a portion extending from the rigidarea RA toward the sound generating unit EX. There is a space betweenthe rear surface of the display module DIS and the elastic area EA ofthe guide panel GP as shown in FIG. 5 , but the present disclosure isnot limited thereto.

In one example, the adhesive fixing element AD may be disposed on theupper surface of the elastic area EA as well as the rigid area RA of theguide panel GP, so that the entire guide panel GP may be fixed to thedisplay module DIS. In this case, the sound vibration generated from thesound generating unit EX may be absorbed by the elastic force of theelastic area EA, so that the echo vibration may be eliminated ordepressed.

In another example, the adhesive fixing element AD may be applied onlyto the rigid area RA of the guide panel GP, and the elastic area EA maybe kept in close contact with the display module DIS. In that case,also, the sound vibration generated from the sound generating unit EXmay be absorbed by the elastic force of the elastic area EA, so that theecho vibration may be eliminated, depressed or suppressed.

Until now, the arrangement and structure of the vibration absorber DMdisposed on the rear surface of the display module DIS have beendescribed in a cross-sectional view. Hereinafter, the structure of thevibration absorber DM on the plan view will be explained in detail.

Fifth Embodiment

FIG. 6 is a rear side plan view illustrating a structure of a displayapparatus according to the fifth embodiment of the present disclosure.In FIG. 6 , the back cover BC is not shown unlike the previouslyreferenced drawings illustrating the cross-sectional structure. In thefifth embodiment, the arrangement relationship among the guide panel GP,the adhesive fixing element DA and the vibration absorber DM viewed fromthe top view will be mainly described.

Referring to FIG. 6 , the display apparatus according to the fifthembodiment of the present disclosure may comprise a display module DIS,a guide panel GP, a back cover BC, an adhesive fixing element AD and asound generating unit EX. The display module DIS may include a displaypanel DP and a cover glass CG. The cover glass CG may include a displayarea AA and a non-display area IA. The display panel DP may be attachedat inner surface of the display area AA of the cover glass CG.

The back cover BC may be attached at the rear surface of the displaymodule DIS. In detail, the guide panel GP may be attached at non displayarea IA of the display module DIS. In addition, the back cover BC may beattached at the rear surface of the guide panel GP, but it is notrepresented on the plan view.

The guide panel GP may be attached as corresponding to the non-displayarea IA of the display module DIS. For example, the guide panel GP maybe attached to the non-display area IA of the display module DIS usingthe adhesive fixing element AD. The vibration absorber DM is disposedinside the guide panel GP adjacent to the guide panel GP. The vibrationabsorber DM disposed in the non-display area IA may further include aplurality of extended protrusions DMI extending to an inner side of thedisplay module DIS. The vibration absorber DM may be in close contactwith the back surface of the display module DIS in the non-display areaIA. In the interim, the extended protrusions DMI of the vibrationabsorber DM may extend to the display area AA to be in close contactwith some parts of the display panel DP.

The extended protrusion DMI may have a structure in which a saw-toothshape or a triangular shape having an irregular length and width iscontinuously arranged. The sound generating unit EX may produce avariety of complex vibration frequencies, so such a complex structure ofthe extended protrusion DMI may efficiently absorb these complexfrequencies, and suppress the echo vibration.

In addition, the vibration absorber DM may further include a pluralityof recessed protrusions DMO irregularly or regularly recessed outsidethe display module DIS in the non-display area IA of the display moduleDIS. The vibration absorber DM may be in close contact with the rearsurface of the display module DIS in the non-display area IA. Therecessed protrusion DMO which is recessed into the non-display area IA,may be attached to the rear surface of the display panel DIS at thenon-display area IA (e.g., by the adhesive fixing element AD).

FIG. 6 shows that the extended protrusion DMI is disposed at the upperleft corner and the lower right corner on the rear surface of thedisplay module DIS, and the recessed protrusion DMO is disposed at theupper right corner and the lower left corner. However, the presentdisclosure is not limited thereto, and the extended protrusion DMI orthe recessed protrusion DMO may be disposed at all four corners of therear surface of the display module DIS.

The dotted line in FIG. 6 may be a boundary line separating the regionof the adhesive fixing element AD and the region of the vibrationabsorber DM in the structure in which the guide panel GP is integrallyconfigured with the vibration absorber DM. For example, the dotted linemay be a boundary line separating the adhesive fixing area ADA and thevibration absorber DMA in FIG. 5 .

The display apparatus according to the fifth embodiment of the presentdisclosure further comprises a vibration absorber DM disposed adjacentto the adhesive fixing element AD between the adhesive fixing member ADand the sound generating unit EX. In detail, the vibration absorber DMmay include at least one of a plurality of extended protrusions DMIextending into the inner direction of the display module DIS and aplurality of recessed protrusions DMO recessed into the outer directionof the display module DIS. Accordingly, the vibration absorber DM andthe extended protrusion DMI or the recessed protrusion DMO may suppressreverberant (or echo) vibration to acoustic vibration generated from thesound generating unit EX. Thereby, the acoustic vibration generated fromthe sound generating unit EX may be maintained in a high quality state.

Sixth Embodiment

FIG. 7 is a rear side plan view illustrating a structure of a displayapparatus according to the seventh embodiment of the present disclosure.In FIG. 7 like FIG. 6 , the back cover BC is not shown unlike thepreviously referenced drawings illustrating the cross-sectionalstructure. The sixth embodiment may have the same structure with thefifth embodiment. The difference, in the sixth embodiment, is that theextended protrusion DMI and the recessed protrusion DMO may be disposedat any one side connecting two corners.

Referring to FIG. 7 , the display apparatus according to the sixthembodiment of the present disclosure may comprise a display module DIS,a guide panel GP, a back cover BC, an adhesive fixing element AD and asound generating unit EX. The display module DIS may include a displaypanel DP and a cover glass CG. The cover glass CG may include a displayarea AA and a non-display area IA. The display panel DP may be attachedat inner surface of the display area AA of the cover glass CG.

The back cover BC may be attached at the rear surface of the displaymodule DIS. In detail, the guide panel GP may be attached at non displayarea IA of the display module DIS. In addition, the back cover BC may beattached at the rear surface of the guide panel GP, but it is notrepresented on the plan view.

The guide panel GP may be attached as corresponding to the non-displayarea IA of the display module DIS. For example, the guide panel GP maybe attached to the non-display area IA of the display module DIS usingthe adhesive fixing element AD. The vibration absorber DM is disposedinside the guide panel GP adjacent to the guide panel GP. The vibrationabsorber DM disposed in the non-display area IA may further include aplurality of extended protrusions DMI extending to an inner side of thedisplay module DIS. The vibration absorber DM may be in close contactwith the back surface of the display module DIS in the non-display areaIA. In the interim, the extended protrusions DMI of the vibrationabsorber DM may extend to the display area AA to be in close contactwith some parts of the display panel DP.

The extended protrusion DMI may have a structure in which a saw-toothshape or a triangular shape having an irregular length and width iscontinuously arranged. The sound generating unit EX may produce avariety of complex vibration frequencies, so such a complex structure ofthe extended protrusion DMI may efficiently absorb these complexfrequencies, and suppress the echo vibration.

In addition, the vibration absorber DM may further include a pluralityof recessed protrusions DMO irregularly or regularly recessed outsidethe display module DIS in the non-display area IA of the display moduleDIS. The vibration absorber DM may be in close contact with the rearsurface of the display module DIS in the non-display area IA. Therecessed protrusion DMO which is recessed into the non-display area IA,may be attached to the rear surface of the display panel DIS at thenon-display area IA (e.g., by the adhesive fixing element AD).

FIG. 7 shows that the extended protrusion DMI is disposed on the leftside area, from the upper left corner to the lower left corner on therear surface of the display module DIS. The recessed protrusion DMO isdisposed on the right side area, from the upper right corner to thelower right corner on the rear surface of the display module DIS.However, the present disclosure is not limited thereto, and the extendedprotrusion DMI or the recessed protrusion DMO may be disposed at bothsides facing each other on the rear surface of the display module DIS.

In one example, the extended protrusion DMI may be disposed as beingacross the top left corner, the left side and the bottom left corner.Further, the recessed protrusion DMO may be disposed as being across thetop right corner, the right side and the bottom right corner. Theextended protrusion DMI may be facing with the recessed protrusion DMO.

In another example, the recessed protrusion DMO may be disposed as beingacross the top left corner, the left side and the bottom left corner,while the extended protrusion DMI may be disposed as being across thetop right corner, the right side and the bottom right corner. In stillanother example, the recessed protrusion DMO may be disposed as beingacross the top left corner, the top side and the top right corner, whilethe extended protrusion DMI may be disposed as being across the bottomleft corner, the bottom side and the bottom right corner.

The dotted line in FIG. 7 may be a boundary line separating the regionof the adhesive fixing element AD and the region of the vibrationabsorber DM in the structure in which the guide panel GP is integrallyconfigured with the vibration absorber DM. For example, the dotted linemay be a boundary line separating the adhesive fixing area ADA and thevibration absorber DMA in FIG. 5 .

The display apparatus according to the sixth embodiment of the presentdisclosure may further include a vibration absorber DM between theadhesive fixing element AD and the sound generating unit EX, as beingadjacent to the adhesive fixing element AD. In detail, the vibrationabsorber DM may include at least one of a plurality of extendedprotrusions DMI extending into the inner region of the display moduleDIS and a plurality of recessed protrusions DMO recessed into the outerregion of the display module DIS. Accordingly, the vibration absorber DMand the extended protrusion DMI or the recessed protrusion DMO maysuppress the reverberant vibration to the acoustic vibration generatedfrom the sound generating unit EX. Thereby, the acoustic vibrationcreated from the sound generating unit EX may be maintained in a highquality state.

With the display apparatus according to various embodiments of thepresent disclosure described above, an improved result may be obtainedin the acoustic graph measurement as shown in FIG. 8 . FIG. 8 is a graphshowing the sound pressure level compared to the frequency measured atthe display apparatus according to the various embodiments of thepresent disclosure. In FIG. 8 , the solid line is a measurement graph ofa sound pressure level versus frequency shown in a display apparatushaving the structural characteristics according to the presentdisclosure. The dotted line is a graph of the sound pressure levelversus frequency measured when the vibration absorber of the presentdisclosure is not provided. Here, the X-axis refers to the acousticfrequency band represented in the unit of Hz. Y-axis refers to the soundPressure Level (SPL) represented in the unit of dB.

FIG. 8 shows an excellent sound pressure level in the low acousticfrequency band, specifically. For example, referring to the part markedwith ‘a’, the sound pressure level is improved from 76 dB to 80 dB atthe low frequency of about 140 Hz. In addition, referring to the partindicated by ‘b’, when the vibration absorber of the present disclosureis not applied, the lowest frequency of the frequency band having asound pressure level of 80 dB is 160 Hz. However, when the vibrationabsorber of the present disclosure is applied, the lowest frequency ofthe frequency band having a sound pressure level of 80 dB is extended to140 Hz.

Consequently, in the display panel including the vibration absorberaccording to the present disclosure, since the acoustic vibrationprovided from the sound generating unit is not reflected at the edge ofthe display panel but is eliminated or suppressed by the vibrationabsorber, the frequency band range for representing sounds may be widerand the sound pressure level of the frequency band may be furtherimproved. This effect may be more effectively obtained at low frequencybands below 200 Hz, especially. Also, as shown in FIG. 8 , in thedisplay panel including the vibration absorber according to the presentdisclosure, a relatively flatter sound pressure level can be obtained inthe low acoustic frequency band, and thus the sound quality of thedisplay device can be improved.

Features, structures, effects and so on described in the above describedexamples of the present disclosure are included in at least one exampleof the present disclosure, and are not necessarily limited to only oneexample. Furthermore, features, structures, effects and so onexemplified in at least one example of the present disclosure may beimplemented by combining or modifying other examples by a person havingordinary skilled in this field. Therefore, contents related to suchcombinations and modifications should be interpreted as being includedin the scope of the present application.

It will be apparent to those skilled in the art that variousmodifications and variations can be made in the display apparatus of thepresent disclosure without departing from the technical idea or scope ofthe disclosure. Thus, it is intended that the present disclosure coverthe modifications and variations of this disclosure provided they comewithin the scope of the appended claims and their equivalents.

What is claimed is:
 1. A set apparatus comprises: a vibration plate; aguide panel at a rear edge of the vibration plate; a fixing memberbetween the guide panel and the rear edge of the vibration plate; avibration absorber at an inner side of the fixing member, and is adifferent material from the fixing member; and a vibration generatingapparatus configured to vibrate the vibration plate, wherein thevibration absorber is disposed closer to the vibration generatingapparatus than the fixing member.
 2. The set apparatus of claim 1,wherein the vibration absorber comprises an elastic material.
 3. The setapparatus of claim 1, wherein the vibration absorber comprises anelastic material, and wherein the fixing member comprises an adhesivemedium.
 4. The set apparatus of claim 1, wherein the fixing membercomprises an organic adhesive material, a photo-curable adhesivematerial, or a heat-curable adhesive material.
 5. The set apparatus ofclaim 1, wherein the fixing member is configured to be fixed to the rearedge of the vibration plate, and wherein the vibration absorber isconfigured to contact with the rear edge of the vibration plate.
 6. Theset apparatus of claim 1, wherein the vibration absorber comprises aninner corner portion including a round chamfer shape or a diagonalchamfer shape.
 7. The set apparatus of claim 1, wherein a width of thevibration absorber is wider than a width of the fixing member.
 8. Theset apparatus of claim 7, wherein the guide panel comprises a frontsurface and an outer side, wherein the vibration absorber is between thefront surface of the guide panel and the rear edge of the vibrationplate; and wherein the fixing member covers the outer side of the guidepanel and an outer side of the vibration absorber and is connected tothe rear edge of the vibration plate.
 9. The set apparatus of claim 8,wherein the vibration absorber comprises an inner side including a waveshape, a saw-tooth shape, or a straight shape.
 10. The set apparatus ofclaim 7, wherein the vibration absorber comprises an inner cornerportion including a round chamfer shape or a diagonal chamfer shape. 11.The set apparatus of claim 1, wherein a thickness of the vibrationabsorber is different from a thickness of the fixing member.
 12. The setapparatus of claim 11, wherein the thickness of the vibration absorberis thicker than the thickness of the fixing member.
 13. The setapparatus of claim 11, wherein the guide panel comprises a step patterncorresponding to the thickness of the vibration absorber and thethickness of the fixing member.
 14. The set apparatus of claim 13,wherein the step pattern comprises a fixing area corresponding to thefixing member and a vibration absorbing area corresponding to thevibration absorber, and wherein the thickness of the fixing area isthicker than the thickness of the vibration absorbing area.
 15. The setapparatus of claim 1, wherein the vibration absorber is configured in aportion of the guide panel.
 16. The set apparatus of claim 15, whereinthe vibration absorber comprises an extended portion at the portion ofthe guide panel to include a sawtooth shaped cross-sectional structureor a spring shaped cross-sectional structure.
 17. The set apparatus ofclaim 16, wherein the guide panel comprises a rigid area correspondingto the fixing member, and wherein the extended portion extends from therigid area to the vibration generating apparatus.
 18. The set apparatusof claim 15, wherein the fixing member is further between the vibrationabsorber and a rear surface of the vibration plate.
 19. The setapparatus of claim 1, wherein the guide panel comprises an inner side,and wherein the vibration absorber includes at least one of a pluralityof extended protrusions protruded from the inner side of the guide panelto the vibration generating apparatus, and a plurality of recessedprotrusions recessed from the inner side of the guide panel.
 20. The setapparatus of claim 19, wherein the inner side of the guide panelcomprises four corners, and wherein at least one of the extendedprotrusions and the recessed protrusions is disposed at least one offour corners of the inner side.
 21. The set apparatus of claim 19,wherein the inner side of the guide panel further comprises four sidesbetween four corners, and wherein at least one of the extendedprotrusions and the recessed protrusions is disposed at two sides of thefour sides.
 22. A vehicle, comprising: a set apparatus including: avibration plate; a guide panel at a rear edge of the vibration plate; afixing member between the guide panel and the rear edge of the vibrationplate; a vibration absorber at an inner side of the fixing member, andis a different material from the fixing member; and a vibrationgenerating apparatus configured to vibrate the vibration plate, whereinthe vibration absorber is disposed closer to the vibration generatingapparatus than the fixing member.